color and label each domain and kingdom on the front€¦ · color and label each domain and...

Color and label each domain and kingdom on the front and back cover of your booklet.

Write the characteristics of each domain and kingdom on the front and back cover of your booklet.

1. Archaea are always unicellular prokaryotes that live in extreme

environments

2. Bacteria are always unicellular prokaryotes that live in the same environments as Humans

3. Protista are always eukaryotic, single celled or multi-celled organisms; some are fungi-like, some are plant-like and some are animal-like

4. Plantae are always eukaryotic multicellular organisms that are not mobile and almost always photosynthesize

5. Fungi are always eukaryotic, multicellular or unicellular organisms that are not mobile and always heterotrophic

6. Animalia are always eukaryotic multicellular organisms that are mobile and always heterotrophic

Levels of classification

• Every organism can be sorted through the levels of classification

• Classification sorts from least specific to most specific (more general to more specific)

Domain is the most general & most inclusive

level

species is the most specific & most exclusive level

Levels of classification Page 3

Domain

Kingdom

Phylum

Class

Order

Family

Genus

species

Most General

Least General

Least Specific

Most Specific

TAXON

Levels of Classification Page 3

• Make a mnemonic sentence to help you remember the order of the levels of classification (Domain species)

• Ex:

Did King Philip Come Over For Good spaghetti?

Grizzly bear Black bear Giant

panda Red fox Abert

squirrel

Coral

snake Sea star KINGDOM Animalia

PHYLUM Chordata

CLASS Mammalia

ORDER Carnivora

FAMILY Ursidae

GENUS Ursus

SPECIES arctos

Reading a Cladogram Page 4

Cladograms show the acquisition of traits (Shows traits Not dates)

• This means they show the sequence of adaptations

Everything that comes after a trait/adaptation will have that trait/adaptation Ex: Lancelets and Lampreys evolved before the jaw adaptation, so they DO NOT have jaws

Binomial nomenclature Page 5

• Carolus Linnaeus (1707-1778)

– Botanist

– Wanted a better way to classify organisms other than by common name.

Why would using common names of organisms be problematic for scientists?

• Common names cause confusion if the names differ by location

Binomial nomenclature Page 5

What do you call these flowers?

In Texas we call them

Texas blue bonnets

In other places they are called

Lupins

• Linnaeus created Binomial Nomenclature to make it easier to discuss the same things from region to region

• It is made up of the last two levels of classification… Genus and species

3 Rules for scientific naming…

1. Includes the Genus name and the species name

2. Genus is ALWAYS capitalized, species is NEVER capitalized

3. Underline each word seperately, or type in italics

Binomial nomenclature Page 5

Lupinus texensis

List at least 4 of these examples:

• Human – Homo sapien

• Chimpanzee – Pan trogolodyte

• Dog – Canis familiaris

• California Redwood – Sequoia sempervirens

• Lynx – Lynx rufus

• Bobcat – Lynx canadensis

• “E. coli” bacteria – Escherichia coli

Binomial nomenclature Page 5

Prokaryotes

Domain Archaea Domain Bacteria

Examples:

Examples:

6

7

Bacterial Shapes and Grouping – Draw the 3 shapes and the groupings from the next two slides

Domain Eukarya

Prokaryotic Shapes

• Coccus – round or spherical

• Bacillus – rod shaped

• Spirillum – spiral shaped

In the box on page 6-side

Bacterial Grouping

• Strepto- (chains)

• Staphylo- (clusters like grapes)

• Diplo- (pairs)

In the box on page 7-side

Domain Archaea Page 6

• Examples:

• All organisms in this domain are ALWAYS Prokaryotic therefore unicellular

• Contains 1 Kingdom – Archaeabacteria

• Thermophiles, Halophiles and Methanogens

Domain Bacteria Page 7

• Examples:

• All organisms in this domain are Prokaryotic

therefore ALWAYS unicellular

• Contains 1 Kingdom – Eubacteria (true bacteria)

Domain Eukarya (This spans the bottom of pages 6-7 below the solid line)

• All organisms in this domain are Eukaryotic

– Remember: all cells here must have…

Membrane Bound Organelles

• Contains 4 kingdoms

– Protista, Fungi,

– Plantae and Animalia

Nucleus, Golgi, lysosome, mitochondria, chloroplast etc.

ALWAYS multicellular.

Some multicellular some unicellular.

Breaking down the Domains (not in book)

• Scientists used to view the world much differently in the past

• In the 1950s scientists thought all bacteria were the same and called them Monera

Breaking down the Kingdoms (not in book) • Lets look at the way we define kingdoms today

(DO NOT copy the definitions yet)

DOMAIN

KINGDOM

CELL TYPE

CELL

STRUCTURES

NUMBER OF

CELLS

MODE OF

NUTRITION

EXAMPLES

Bacteria

Eubacteria

Prokaryote Cell walls with

peptidoglycan

Unicellular

Autotroph or

heterotroph Streptococcus,

Escherichia

coli

Archaea

Archaebacteria

Prokaryote Cell walls

without

peptidoglycan

Unicellular

Autotroph or

heterotroph Methanogens,

halophiles

Protista

Eukaryote Cell walls of

cellulose in

some; some

have

chloroplasts

Most

unicellular;

some colonial;

some

multicellular

Autotroph or

heterotroph Amoeba,

Paramecium,

slime molds,

giant kelp

Fungi

Eukaryote Cell walls of

chitin

Most

multicellular;

some

unicellular

Heterotroph

Mushrooms, yeasts

Plantae

Eukaryote Cell walls of

cellulose;

chloroplasts

Multicellular

Autotroph

Mosses,

ferns,

flowering

plants

Animalia

Eukaryote No cell walls

or

chloroplasts

Multicellular

Heterotroph

Sponges,

worms,

insects,

fishes,

mammals

Eukarya

Classification of Living Things

Cell and Virus Characteristics

Animal Cell

Plant Cell

Bacterial Cell

Virus

Animal cells NEVER have a cell wall

They are always eukaryotic. There are numerous variations. They are always part of multicellular organism

Plant cells always have a cell wall. There are numerous variations. They are always part of multicellular organism

Bacterial cells are NEVER multicellular and they are always prokaryotic, they sometimes have flagella, cillia or pili. They do have a cell wall. They have NO nucleus

Viruses are NOT CELLULAR They are comprised of genetic material and a protein coat

The Six Kingdoms Page 9 (You will come back to this page)

Kingdom General Description

Archaebactria

Eubacteria

Protista

Fungi

Plantae

Animalia

Kingdom Archaebacteria Page 10

• ALWAYS Prokaryote • Live in extreme environments • Most DO NOT use oxygen • Their cell walls DO NOT have the protein Pepti-do-

glycan • ALWAYS Unicellular • Some autotrophic, some heterotrophic

Ex:

– Thermophiles – live in extreme temperatures (hot & cold) – Halophiles – live in very salty environments – Methanogens – make methane as waste product (why swamp

gases and septic tanks smell bad)

Kingdom Eubacteria Page 11

• ALWAYS Prokaryote Unicellular • Essential for the N cycle • Live in same environments as humans • Their cell walls DO have the protein Pepti-do-

glycan • Some autotrophic, some heterotrophic • Many are Decomposers

Ex:

– E. coli, bacteria that can be helpful or harmful – Streptococcus pneumonia – harmful, causes sickness – Lactobacillus acidophilus – beneficial, found in yogurt

E. coli article (Bottom box page 10)

Play or present NPR article…

Harmful E. coli

Listeria monocytogenes http://www.cnn.com/2015/04/20/health/blue-bell-ice-cream-recall/

Salmonella enterica, Colstridium botulinum (food poisoning)

MRSA (Methicillin-resistant Staphylococcus aureus)

Streptococcus pneumoniae

S. Pyogenes (strep throat)

Propionibacterium acnes (Acne)

Domain Bacteria (Bottom box Page 11)

Helpful/ Beneficial

E. coli

Lactobacillus casei, L. bulgaricus, (yogurt)

Colstridium botulinum - Botox

Rhodopseudomonas plaustrus (Denitrifying)

Rhizobium leguminosarium (Nitrogen fixing)

Domain Bacteria Page 11 (Middle half examples)

Kingdom Protista: Water Molds (Fungus-like protists) Page 12

• Unicellular or colonial groups usually

• Cell walls DO NOT have chitin like true Fungi

• Some have mobile stage of life cycle

• Important Decomposers

Ex:

– Slime-mold, powdery mildew

Kingdom Protista: Algae (Plant-like protists) Page 12

• Unicellular and colonial

• Photosynthetic

• DO NOT have roots, stems or leaves

• Ex:

– Algae, kelp, sea-weed

Kingdom Protista: Protozoa (Animal-like protists) Page 13

• Eukaryotic

• Mostly heterotrophic (some also photosynthesize)

• Unicellular

• Motile/Mobile (can move)

• Ex:

– Amoeba, Paramecia, Euglena Pseudopodia Cilia Flagella

• Amoeba in motion

• Paramecium in motion

• Euglena in motion

Kingdom Fungi Page 14

• Eukaryotic

• VERY important decomposers Saprobes – eat decaying matter

• Heterotrophic

• Cell Walls made of Chitin

• Multicellular and unicellular

• EXTRACELLULAR DIGESTION

Ex: – Molds, Mushrooms,

Athlete’s Foot, Ring worm

Ringworm

Athletes foot

Kingdom Plantae Page 15

• Eukaryotic

• Multicellular

• Photosynthetic

• Non-motile (doesn’t move)

• Cell walls made of cellulose

Ex:

– Mosses, Ferns, Gymnosperms, Angiosperms

Kingdom Animalia Page 16

• Eukaryotic

• Multicellular

• Heterotrophic

• Motile (moves)

• Ex:

– Humans, spiders, lions, tigers and bears etc.

Major Phyla of the Animal Kingdom Not in book

Phylum Examples

Porifera Sea sponges

Cnidaria Jellies and Medusas

Platyhelminthes Flat worms (Tapeworms)

Nemotoda Round worms (Pin worms, heart worms)

Annelida Segmented worms (Earthworm)

Mollusca Clams and relatives, Octopi/Squid and relatives

Arthropoda Shelled (exoskeleton) animals, crabs, spiders, scorpions, insects

Echinodermata Starfish, sea urchins

Chordata Animals with a spinal chord (Fish, Amphibians, Reptiles, Birds and Mammals)

REFLECTION

• Go back to Page 9 and fill in the pages using your information from your booklet notes

Do Dichotomous key (Page 17)

• Use the descriptions under the images and the definitions in table 1 along with the dichotomous key handout to identify each organism on the page.

Vertebrate Cladogram (Page 18)

• Fill in the cladogram with characteristics that would complete the cladogram.

• Remember, any derived trait listed must be true for every animal that evolved after the trait mutated into existance.

Comparing the classification of Humans and Chimpanzees (page 19)

Level Human Chimp

Kingdom → Animalia Animalia

Phylum → Chordata Chordata

Class → Mamalia Mamalia

Order → Primate Primate

Family → Hominidae Pongidae

Genus → Homo Pan

Species → sapien troglodytes

Booklet stops here… following slides if time permits

• If you’re looking at this outside of class, enjoy the pictures.

• If you have questions over the organism names or examples go see Mr. Kapa

Phylum: Porifera

• Sea sponges

• Asymmetrical

• 3 cell layers (no true tissues)

• Non-motile or sessile (they don’t move)

Phylum: Cnidaria

• Corals, jellies and hydras

• Radially symmetrical

• 2 cell layers (no true tissues)

• Non-motile and motile (some move some don’t)

Phylum: Platyhelminthes

• Flatworms (tapeworm, planarians, flukes)

• Bilateral symmetry

• Nervous system

• 3 tissue layers (include mouth and anus)

Phylum: Nemotoda

• Round worms

• Found almost everywhere

• DO NOT have segmented bodies

• Bilateral symmetry

• Many are parasites

Phylum: Annelida

• Segmented worms (earthworms, leeches, etc)

• Have individual body segments (rings)

• Bilateral symmetry

Phylum: Mollusca

• Snails, slugs, bivalves, octopus, squid, nautilus and cuttlefish (to name a few)

• Most aquatic

• Soft bodied

• Secrete shell (some reduced and internal)

Phylum: Arthropoda

• Crabs, lobsters, insects, spiders, scorpions, etc

• Have segmented external shell (like a suit of armor)

Phylum: Echinodermata

• Starfish, sand dollars, sea urchins, etc

• Epidermis covers a exoskeleton layer

• Use hydraulic “tube feet” for moving and eating

Phylum: Chordata

• Vertebrates (have a backbone)

• Everything else up to now has been Invertebrate (did not have a backbone)

Classification of Vertebrates (Page 18) bottom

• Agnatha – jawless fish

• Chondrichthyes – cartilaginous fish, sharks

• Osteichthyes – bony fish

• Amphibia

• Reptilia

• Aves – birds

• Mammalia

Order Monotremata

• Family Ornithorhynchidae, Duck billed Platypus

Order Monotremata

• Family Tachyglossidae, Spiny Anteater

Order Didelphimorphia - Opossums

Order Diprotodontia

• (10 families and 117 species) Kangaroos, Wallaby, Wombat, Koalas

Order Artiodactyla

• Even-toed ungulates: Antelope, Deer, Camel, Pig, Cow, Sheep, Hippo,

Order Perissodactyla

• Odd-toed ungulates: Horses, Rhinos, Tapirs

Order Carnivora

• Cats, Bears, Weasels, Dogs

Order Cetacea

• Whales, Dolphins

Order Chiroptera

• Bats

Order Insectivora

• Insect-eaters: Hedgehogs, Moles, Shrews

Order Lagomorpha

• Rabbits, Hares

Order Primates

• Apes, Monkeys, Lemurs, Humans

Order Proboscidea

• Elephants

Order Rodentia • Rodents: Rats, Mice, Squirrels, Gerbils,

Hamsters, Capybaras(largest rodents in the world)

Order Sirenia

• Sea Cows, Manatees

Order Tubulidentata

• Aardvarks

Order Edentata [also called Xenarthra]

• Sloths, Armadillos

Order Pholidota

• Pangolin

History of Human Kind • Oldest Fossil – 4.4 MYA

• Oldest tool use – 2.5 - 3.4 MYA

• Earliest Migrations – 1.8 MYA

• Oldest Culture – 1.6 MYA

• Earliest Language – 50,000 - 100,000 YA

• Earliest Art – 40,000 YA

• Domesticated Animals – 30,000 YA

• Agriculture (farming) – 12,000 - 15,000 YA

Front Cover

• Go back to your cover and draw the diagram on the next slide, on the bottom half of your cover page.

• This is one of the most current theories as to what the tree of life looks like for the 6 kingdoms showing who evolved from whom.

Hypothetical Tree/Ring of life

Prokaryotic

Eukaryotic

Eubacteria Archaebacteria

Plantae Protista

Animalia Fungi

One or More possible FIRST organisms on EARTH

HumanEvolution

• Did Climate Change Drive Human Evolution?

• Listen To the Story on NPR

• Five fossilized human skulls show how the shape of the early human face evolved: (left to right) Australopithecus africanus, 2.5 million years old; Homo rudolfensis, 1.9 million years old; Homo erectus, 1 million years old; Homo heidelbergensis, 350,000 years old; Homo sapiens, 4,800 years old. Scientists believe that climate change had a major impact on the development of early humans.

•

• Skeletons currently on display at the National Museum of Natural History: (left to right) Homo erectus, 1 million years old; Australopithecus afarensis, 2.5 million years old; Homo neanderthalensis, 32,000 to 100,000 years old. Researchers are using ancient remains like these to learn more about the effects climate change may have had on evolution.